A steam iron head (2) employs a soleplate (6) having a fabric contact surface (10), a steam inlet (21) through which steam flows to the steam iron head (2), and one or more steam vents (49). A steam passageway (19) is between the steam inlet (21) and the steam vent(s) (49). A fluid separator (25) is located between the steam passageway (19) and the steam vents (49). The fluid separator (25) is configured to restrict the flow of condensation formed in the steam passageway (19) from passing through the steam vent(s) (49). A soleplate panel (7) forms the fabric contact surface (10) and a base (15, 20) of the steam passageway (19). The soleplate panel (7) is configured to be primarily heated by steam flowing along the steam passageway (19) to the steam vent(s) (49). A steam generator system iron may employ the steam iron head (2).

A steam iron head (2) employs a soleplate (6) having a fabric contact surface (10), a steam inlet (21) through which steam flows to the steam iron head (2), and one or more steam vents (49). A steam passageway (19) is between the steam inlet (21) and the steam vent(s) (49). A fluid separator (25) is located between the steam passageway (19) and the steam vents (49). The fluid separator (25) is configured to restrict the flow of condensation formed in the steam passageway (19) from passing through the steam vent(s) (49). A soleplate panel (7) forms the fabric contact surface (10) and a base (15, 20) of the steam passageway (19). The soleplate panel (7) is configured to be primarily heated by steam flowing along the steam passageway (19) to the steam vent(s) (49). A steam generator system iron may employ the steam iron head (2).

The invention relates to a device for generating steam. The device comprises a water outlet arrangement having an open end to spray water onto a water receiving arrangement. The water receiving arrangement comprises an interior surface defining a chamber in which the open end is arranged so that water sprayed from the open end is sprayed onto the interior surface. The device further comprises a heating element for heating the interior surface up to a temperature for generating steam from water sprayed on the interior surface. The interior surface is formed by two separate cavities, the open end comprising a spray nozzle received within each cavity so that each spray nozzle sprays water onto a region of the interior surface, each region being defined by the cavity in which a respective spray nozzle is received. This allows the water sprayed by the water outlet arrangement be more uniformly spread on the interior surface, leading to more effective heating and more steam may be generated per unit time.

The invention relates to a device (1) for generating steam. The device (1) comprises a first plate (2) being inclined at a positive first angle (AO) compared to the horizontal direction (H) to define a first upper end (2a) and a first lower end (2b), a heating element (3) to heat the first plate (2) to a predetermined temperature being at least above water evaporation temperature, a water inlet arrangement (4) for dispensing water onto the first plate (2), a second plate (5) being inclined at a negative second angle (BO) compared to the horizontal direction (H) to define a second upper end (5a) and a second lower end (5b), the second upper end (5a) adjoining the first lower end (2b), and a container (6) extending at least below said first lower end (2b), said container (6) being arranged for collecting scale flakes falling from the first plate (2). This solution allows creating a larger volume for the collection of scale, thus increasing the operating life of the device (1).

The invention relates to a device (1) for generating steam. The device (1) comprises a first plate (2) being inclined at a positive first angle (AO) compared to the horizontal direction (H) to define a first upper end (2a) and a first lower end (2b), a heating element (3) to heat the first plate (2) to a predetermined temperature being at least above water evaporation temperature, a water inlet arrangement (4) for dispensing water onto the first plate (2), a second plate (5) being inclined at a negative second angle (BO) compared to the horizontal direction (H) to define a second upper end (5a) and a second lower end (5b), the second upper end (5a) adjoining the first lower end (2b), and a container (6) extending at least below said first lower end (2b), said container (6) being arranged for collecting scale flakes falling from the first plate (2). This solution allows creating a larger volume for the collection of scale, thus increasing the operating life of the device (1).

An iron may autonomously set the appropriate ironing parameter by obtaining information about the garment to be ironed. Data may be received from an indicator located on a garment to be ironed. An indicator may include the actual type of fabric associated with a garment, or an information tag attached to a garment. The received data may be decoded to determine the ironing parameters for the garment to be ironed. Based on the determined ironing parameters, the associated settings may be automatically adjusted on an iron.

A system for steaming clothes is disclosed. A steamer is connected through a hose to a steamer bag or a steaming component having a plurality of connecting tubes, where the steaming component having the plurality of connecting tubes, where the plurality of connecting tubes connects to a plurality of detachable ventilating tubes, where the plurality of the detachable ventilating tubes have a plurality of holes to expel steam. The steaming component with the plurality of connecting tubes are configured to hold an article of clothing that fits around the steaming component and the plurality of connecting tubes, where the steaming component is configured to receive the steam from the steamer to expel the steam through the plurality of holes to the steamer bag to entirely steam an entire portion of the article of clothing.

A system for steaming clothes is disclosed. A steamer is connected through a hose to a steamer bag or a steaming component having a plurality of connecting tubes, where the steaming component having the plurality of connecting tubes, where the plurality of connecting tubes connects to a plurality of detachable ventilating tubes, where the plurality of the detachable ventilating tubes have a plurality of holes to expel steam. The steaming component with the plurality of connecting tubes are configured to hold an article of clothing that fits around the steaming component and the plurality of connecting tubes, where the steaming component is configured to receive the steam from the steamer to expel the steam through the plurality of holes to the steamer bag to entirely steam an entire portion of the article of clothing.

The present disclosure relates to an ironing module including a water supply tank that stores water therein, a steam generator that receives water from the water supply tank and heats water, a cable that transmits at least one of water and steam heated by the steam generator, and a steam iron connected to a distal end of the cable to spray steam to the outside, wherein the ironing module adjusts a spray amount of steam selectively using pressure and temperature conditions.

The present disclosure relates to an ironing module including a water supply tank that stores water therein, a steam generator that receives water from the water supply tank and heats water, a cable that transmits at least one of water and steam heated by the steam generator, and a steam iron connected to a distal end of the cable to spray steam to the outside, wherein the ironing module adjusts a spray amount of steam selectively using pressure and temperature conditions.